#include <mega/common/error_or.h>
#include <mega/common/node_info.h>
#include <mega/common/testing/cloud_path.h>
#include <mega/common/testing/real_client.h>
#include <mega/common/utility.h>
#include <mega/db/sqlite.h>
#include <mega/log_level.h>
#include <mega/logging.h>

#include <test.h>

// clang-format off
#include "megawaiter.h"
// clang-format on

#include <chrono>
#include <future>
#include <utility>

namespace mega
{
namespace common
{
namespace testing
{

using namespace common;
using namespace common::testing;
using namespace file_service;

static std::unique_ptr<GfxProc> createGfxProc()
{
    auto provider = IGfxProvider::createInternalGfxProvider();
    if (!provider)
    {
        return nullptr;
    }

    auto gfx = std::make_unique<GfxProc>(std::move(provider));
    if (gfx)
        gfx->startProcessingThread();
    return gfx;
}

class RealClient::RealContact: public Contact
{
    // Do we need to verify this contact?
    bool mustVerify(std::unique_lock<std::mutex>& lock) const;

    // What client contains this contact?
    RealClient& mClient;

    // The contact's email.
    std::string mEmail;

    // The contact's ID.
    Handle mID;

public:
    RealContact(RealClient& client, const User& user);

    // Remove the contact.
    Error remove() override;

    // Has this contact been verified?
    bool verified() const override;

    // Verify the contact.
    Error verify() override;
}; // RealContact

class RealClient::RealInvite: public Invite
{
    // Perform an operation on an invite we've received.
    Error execute(ipcactions_t action);

    // Perform an operation on an invite we've sent.
    Error execute(opcactions_t action);

    // What client contains this invite?
    RealClient& mClient;

    // What invite does this instance represent?
    Handle mID;

public:
    RealInvite(RealClient& client, Handle id);

    // Accept the invitation.
    Error accept() override;

    // Cancel the invitation.
    Error cancel() override;

    // Decline the invitation.
    Error decline() override;
}; // RealInvite

common::Client& RealClient::client() const
{
    return mClient->mClientAdapter;
}

std::string RealClient::email() const
{
    std::lock_guard<std::mutex> guard(mClientLock);

    if (auto* user = mClient->finduser(mClient->me, 0))
        return user->email;

    return std::string();
}

Error RealClient::fetch(bool ignoreCache)
{
    // So we can wait for the client's result.
    auto notifier = makeSharedPromise<Error>();

    // Ask client to describe our cloud content.
    {
        std::lock_guard<std::mutex> guard(mClientLock);

        // Transmits client's result to notifier.
        auto completion = [notifier](error result)
        {
            notifier->set_value(result);
        }; // completion

        // Generate a key uniquely identifying this request.
        auto key = std::make_pair(RT_FETCH, mClient->nextreqtag());

        // Move completion function into request map.
        auto result = mPendingRequests.emplace(std::move(key), std::move(completion));

        // Sanity.
        assert(result.second);

        // Silence compiler.
        static_cast<void>(result);

        // Description isn't current until some time after fetch.
        nodesCurrent(false);

        // Ask the client to describe our cloud content.
        mClient->fetchnodes(ignoreCache, true, false);

        // Let the client know it has work to do.
        mClient->waiter->notify();
    }

    // Return client's result to caller.
    return waitFor(notifier->get_future());
}

void RealClient::fetchnodes_result(const Error& error)
{
    requestCompleted(std::make_pair(RT_FETCH, mClient->restag), error);
}

auto RealClient::invited(const std::string& email, std::unique_lock<std::mutex>&) const -> InvitePtr
{
    // Compares two characters case insensitively.
    auto characterEquals = [](std::uint8_t lhs, std::uint8_t rhs)
    {
        return std::tolower(lhs) == std::tolower(rhs);
    }; // characterEquals

    // Compares two strings case insensitively.
    auto stringEquals = [&](const std::string& lhs, const std::string& rhs)
    {
        return std::equal(lhs.begin(), lhs.end(), rhs.begin(), rhs.end(), characterEquals);
    }; // stringEquals

    // Convenience.
    auto& self = const_cast<RealClient&>(*this);

    for (auto& i: mClient->pcrindex)
    {
        // Convenience.
        auto& request = *i.second;

        // Request received from email or sent to email.
        if ((request.isoutgoing && stringEquals(request.targetemail, email)) ||
            stringEquals(request.originatoremail, email))
            return std::make_unique<RealInvite>(self, request.id);
    }

    // No matching request.
    return nullptr;
}

Error RealClient::login(const std::string& email,
                        const std::string& password,
                        const std::string& salt)
{
    // So we can wait for the client's result.
    auto notifier = makeSharedPromise<Error>();

    // Transmits the client's result to our notifier.
    auto completion = [notifier](error result)
    {
        notifier->set_value(result);
    }; // completion

    // Ask the client to log the user in.
    do
    {
        std::lock_guard<std::mutex> guard(mClientLock);

        // Convenience.
        auto& accountVersion = mClient->accountversion;

        // Unknown account version.
        if (!accountVersion || accountVersion > 2)
            return API_EINTERNAL;

        // User has a V1 account.
        if (accountVersion == 1)
        {
            byte passwordKey[SymmCipher::KEYLENGTH];

            // Compute password key.
            auto result = mClient->pw_key(password.c_str(), passwordKey);

            // Couldn't compute password key.
            if (result != API_OK)
                return result;

            // Try and log the user in.
            mClient->login(email.c_str(), passwordKey, nullptr, std::move(completion));

            // Let the client know it has work to do.
            mClient->waiter->notify();

            break;
        }

        // User has a V2 account but has no salt.
        if (salt.empty())
            return API_EINTERNAL;

        // Try and log the user in.
        mClient->login2(email.c_str(), password.c_str(), &salt, nullptr, std::move(completion));

        // Let the client know it has work to do.
        mClient->waiter->notify();
    }
    while (0);

    // Wait for the client's result.
    return waitFor(notifier->get_future());
}

void RealClient::loop()
{
    LOG_verbose << "Client thread started";

    // Acquire lock.
    std::unique_lock<std::mutex> lock(mClientLock);

    while (!mClientTerminate)
    {
        // Check whether the client needs any attention.
        auto result = mClient->preparewait();

        // Release lock.
        lock.unlock();

        // Wait for activity, if necessary.
        if (!result)
            result = mClient->dowait();

        // Acquire lock.
        lock.lock();

        // Check if any activity has occcured.
        result |= mClient->checkevents();

        // Give client control if necessary.
        if ((result & Waiter::NEEDEXEC))
            mClient->exec();
    }

    // Make sure the client's shut down.
    mClient->locallogout(false, true);

    LOG_verbose << "Client thread stopped";
}

void RealClient::nodes_current()
{
    nodesCurrent(true);
}

auto RealClient::parsePublicLink(const PublicLink& link)
    -> ErrorOr<std::pair<NodeHandle, std::string>>
{
    // Will store the file's public handle.
    ::mega::handle handle;

    // Will store the file's decryption key.
    std::string key(FILENODEKEYLENGTH, '\0');

    // For simplicity, let's assume the link denotes a file.
    constexpr auto linkType = TypeOfLink::FILE;

    // Make sure no one else is messing with the client.
    std::lock_guard guard(mClientLock);

    // Try and destructure the link.
    auto result = mClient->parsepubliclink(link.get().data(),
                                           handle,
                                           reinterpret_cast<byte*>(key.data()),
                                           linkType);

    // Couldn't destructure the link.
    if (result != API_OK)
        return unexpected(result);

    // Return the file's handle and key to our caller.
    return std::make_pair(NodeHandle().set6byte(handle), std::move(key));
}

Error RealClient::openShareDialog(NodeHandle handle)
{
    std::unique_lock<std::mutex> lock(mClientLock);

    // Try and locate the specified node.
    auto node = mClient->nodeByHandle(handle);

    // Node doesn't exist.
    if (!node)
        return API_ENOENT;

    auto notifier = makeSharedPromise<Error>();

    // Called when we've opened a share dialog.
    auto opened = [notifier](Error result)
    {
        notifier->set_value(result);
    }; // opened

    // Ask the client to open a share dialog.
    mClient->openShareDialog(node.get(), std::move(opened));

    // Make sure the client's awake to perform our task.
    mClient->waiter->notify();

    // Release the lock so the client can process our task.
    lock.unlock();

    // Pass result to caller.
    return waitFor(notifier->get_future());
}

ErrorOr<std::string> RealClient::prelogin(const std::string& email)
{
    // So we can wait for the client's result.
    auto notifier = makeSharedPromise<ErrorOr<std::string>>();

    // Transmits the client's result to our notifier.
    auto completion = [notifier](error result, std::string* salt)
    {
        // Couldn't perform prelogin.
        if (result != API_OK)
            return notifier->set_value(unexpected(result));

        // Transmit salt to caller.
        notifier->set_value(*salt);
    }; // completion

    // Ask the client to perform prelogin.
    {
        std::lock_guard<std::mutex> guard(mClientLock);

        mClient->prelogin(
            email.c_str(),
            std::bind(std::move(completion), std::placeholders::_4, std::placeholders::_3));

        // Let the client know it has work to do.
        mClient->waiter->notify();
    }

    // Return client's result to caller.
    return waitFor(notifier->get_future());
}

void RealClient::requestCompleted(RequestKey key, Error result)
{
    auto i = mPendingRequests.find(key);

    // Sanity.
    assert(i != mPendingRequests.end());

    // Latch request callback.
    auto callback = std::move(i->second);

    // Remove request from map.
    mPendingRequests.erase(i);

    // Forward result to callback.
    callback(result);
}

m_off_t RealClient::setTransferSpeed(m_off_t (MegaClient::*get)(),
                                     bool (MegaClient::*set)(m_off_t),
                                     m_off_t speed)
{
    // Sanity.
    assert(get);
    assert(set);

    // Make sure we have exclusive access to the client.
    std::lock_guard guard(mClientLock);

    // Save the client's current transfer speed.
    auto current = (*mClient.*get)();

    // Set the client's transfer speed.
    (*mClient.*set)(speed);

    // Return the client's previous transfer speed.
    return current;
}

bool RealClient::shared(const std::string& email,
                        NodeHandle handle,
                        accesslevel_t permissions) const
{
    // Sanity.
    assert(!email.empty());
    assert(!handle.isUndef());

    // Acquire client lock.
    std::lock_guard<std::mutex> guard(mClientLock);

    // Try and retrieve a reference to the specified node.
    auto node = mClient->nodeByHandle(handle);

    // Node doesn't exist so it can't be shared.
    if (!node)
        return false;

    // Scans "shares" for the specified user.
    auto scan = [&](const share_map& shares)
    {
        // Search shares for the specified user.
        for (auto& s: shares)
        {
            // Convenience.
            const auto& share = *s.second;

            // Mismatched access level.
            if (share.access != permissions)
                continue;

            // Found a share to an established contact.
            if (share.user && share.user->email == email)
                return true;

            // Sanity.
            assert(share.pcr);

            // Found a share to a pending contact.
            if (share.pcr->targetemail == email)
                return true;
        }

        // No matching share to specified user.
        return false;
    }; // scan

    // Have we shared our node with the specified user?
    return (node->outshares && scan(*node->outshares)) ||
           (node->pendingshares && scan(*node->pendingshares));
}

void RealClient::get(GetCallback callback,
                     NodeHandle handle,
                     bool isPrivate,
                     const void* key,
                     std::size_t keyLength,
                     const char* privateAuth,
                     const char* publicAuth)
{
    // Sanity.
    assert(callback);
    assert(key);
    assert(keyLength);

    // Acquire client lock.
    std::lock_guard guard(mClientLock);

    // Called when we've retrieved the node's information.
    auto retrieved = [](GetCallback& callback,
                        NodeHandle handle,
                        std::string* name,
                        const Error& result,
                        std::int64_t size)
    {
        // Couldn't retrieve file information.
        if (result != API_OK)
            return callback(unexpected(result)), true;

        // Couldn't retrieve the file's name.
        if (!name)
            return callback(unexpected(API_EFAILED)), true;

        // Build a minimal description for the node.
        NodeInfo info;

        info.mHandle = handle;
        info.mIsDirectory = false;
        info.mName = *name;
        info.mPermissions = RDONLY;
        info.mSize = size;

        // Pass description to our waiter.
        callback(std::move(info));

        // Let our caller know that we've handled the response.
        return true;
    }; // retrieved

    // Instantiate a request for this file's information.
    auto request = std::make_unique<CommandGetFile>(mClient.get(),
                                                    static_cast<const byte*>(key),
                                                    keyLength,
                                                    false,
                                                    handle.as8byte(),
                                                    isPrivate,
                                                    privateAuth,
                                                    publicAuth,
                                                    nullptr,
                                                    false,
                                                    std::bind(std::move(retrieved),
                                                              std::move(callback),
                                                              handle,
                                                              std::placeholders::_4,
                                                              std::placeholders::_1,
                                                              std::placeholders::_2));

    // Ask the client to execute this request.
    mClient->reqs.add(request.get());

    // Client now owns the request.
    request.release();

    // Let the client know it has work to do.
    mClient->waiter->notify();
}

void RealClient::getPublicLink(GetPublicLinkCallback callback, NodeHandle handle)
{
    // Sanity.
    assert(callback);

    // Make sure nothing else is messing with the client.
    std::lock_guard<std::mutex> guard(mClientLock);

    // Try and get our hands on the node's description.
    auto node = mClient->nodeByHandle(handle);

    // Couldn't get the node's description.
    if (!node)
        return callback(unexpected(API_ENOENT));

    // Called when the node's public link has been retrieved.
    auto linked =
        [this](GetPublicLinkCallback& callback, auto linkHandle, auto nodeHandle, auto result)
    {
        // Couldn't retrieve the node's public link.
        if (result != API_OK)
            return callback(unexpected(result));

        // Try and get our hands on the node.
        auto node = mClient->nodeByHandle(nodeHandle);

        // Node's no longer present.
        if (!node)
            return callback(unexpected(API_ENOENT));

        // Convenience.
        auto linkFormat = mClient->mNewLinkFormat;
        auto linkType = mClient->validTypeForPublicURL(node->type);

        // Node's a directory.
        if (node->type != FILENODE)
        {
            // Which doesn't have a share key.
            if (!node->sharekey)
                return callback(unexpected(API_EKEY));

            // Generate public link URI.
            auto key = Base64Str<FOLDERNODEKEYLENGTH>(node->sharekey->key);
            auto link = mClient->publicLinkURL(linkFormat, linkType, linkHandle, key);

            // Pass public link to waiter.
            return callback(PublicLink(link));
        }

        // Generate public link URI.
        auto key = Base64Str<FILENODEKEYLENGTH>(node->nodekey().data());
        auto link = mClient->publicLinkURL(linkFormat, linkType, linkHandle, key);

        // Pass public link to waiter.
        return callback(PublicLink(link));
    }; // linked

    // Ask the client to get (or create) this node's public link.
    mClient->exportnode(std::move(node),
                        false,
                        0,
                        false,
                        false,
                        0,
                        std::bind(std::move(linked),
                                  std::move(callback),
                                  std::placeholders::_3,
                                  handle,
                                  std::placeholders::_1));

    // Let the client know it has work to do.
    mClient->waiter->notify();
}

RealClient::RealClient(const std::string& clientName,
                       const Path& databasePath,
                       const Path& storagePath):
    Client(clientName, databasePath, storagePath),
    MegaApp(),
    mClient(),
    mClientLock(),
    mClientTerminate{false},
    mClientThread(),
    mHTTPIO(new CurlHttpIO()),
    mPendingRequests(),
    mGfxProc(createGfxProc()),
    mWaiter(std::make_shared<WAIT_CLASS>())
{
    // Sanity.
    assert(!clientName.empty());

    // Instantiate the client.
    mClient.reset(new MegaClient(this,
                                 mWaiter,
                                 mHTTPIO.get(),
                                 new DBACCESS_CLASS(databasePath),
                                 mGfxProc.get(),
                                 USER_AGENT.c_str(),
                                 THREADS_PER_MEGACLIENT));

    // Make sure the client has a recognizable name.
    mClient->clientname = clientName + " ";

    // Instantiate the client's worker thread.
    mClientThread = std::thread(&RealClient::loop, this);

    LOG_verbose << "Client constructed";
}

RealClient::~RealClient()
{
    // Try and log the client out.
    logout(false);

    LOG_verbose << "Waiting for client thread to stop";

    // Let the client thread know it needs to terminate.
    mClientTerminate = true;

    // Wake the client up if it's sleeping.
    mClient->waiter->notify();

    // Wait for the client thread to terminate.
    mClientThread.join();

    // Destroy client.
    mClient.reset();

    LOG_verbose << "Client destroyed";
}

auto RealClient::contact(const std::string& email) const -> ContactPtr
{
    std::lock_guard<std::mutex> guard(mClientLock);

    // Convenience.
    auto& self = const_cast<RealClient&>(*this);

    // Try and locate the specified user.
    auto* user = mClient->finduser(email.c_str(), 0);

    // User's a contact.
    if (user && user->show == VISIBLE)
        return std::make_unique<RealContact>(self, *user);

    // User's not a contact.
    return nullptr;
}

bool RealClient::hasFileAttribute(NodeHandle handle, fatype type) const
{
    std::lock_guard<std::mutex> guard(mClientLock);

    // Try and locate the specified node.
    auto node = mClient->nodeByHandle(handle);

    // Node doesn't exist.
    if (!node)
        return false;

    return node->hasfileattribute(type) != 0;
}

auto RealClient::invite(const std::string& email) -> ErrorOr<InvitePtr>
{
    std::unique_lock<std::mutex> lock(mClientLock);

    // Already sent an invite to or recieved an invite from email.
    if (auto invite = invited(email, lock))
        return invite;

    auto notifier = makeSharedPromise<ErrorOr<InvitePtr>>();

    // Called when the invitation has been sent.
    auto invited = [=](Handle id, Error result, opcactions_t)
    {
        // Invitation was sent.
        if (result == API_OK)
            return notifier->set_value(std::make_unique<RealInvite>(*this, id));

        // Couldn't send invitation.
        notifier->set_value(unexpected(result));
    }; // invited

    // Send the invite.
    mClient->setpcr(email.c_str(), OPCA_ADD, nullptr, nullptr, UNDEF, std::move(invited));

    // Release lock.
    lock.unlock();

    // Return result to caller.
    return waitFor(notifier->get_future());
}

auto RealClient::invited(const std::string& email) const -> InvitePtr
{
    std::unique_lock<std::mutex> guard(mClientLock);

    return invited(email, guard);
}

Error RealClient::login(const std::string& email, const std::string& password)
{
    // Try and retrieve the user's salt.
    auto salt = prelogin(email);

    // Couldn't get the user's salt.
    if (!salt)
        return salt.error();

    // Try and log the user in.
    auto result = login(email, password, *salt);

    // Couldn't log the user in.
    if (result != API_OK)
        return result;

    // Try and retrieve a description of the user's cloud content.
    result = fetch(true);

    // Couldn't get a description of the cloud.
    if (result != API_OK)
        return result;

    // Convenience.
    using std::chrono::seconds;

    // Wait for our view of the cloud to be up to date.
    return waitForNodesCurrent(seconds(8));
}

Error RealClient::login(const PublicLink& link)
{
    // Make sure the public link is valid.
    {
        // Make sure no one else is messing with the client.
        std::lock_guard guard(mClientLock);

        // Make sure the public link is valid.
        auto result = mClient->folderaccess(link.get().data(), nullptr, false);

        // Public link isn't valid.
        if (result != API_OK)
            return result;
    }

    // Couldn't get a description of the directory's content.
    if (auto result = fetch(true); result != API_OK)
        return result;

    // Wait for our view of the directory to be up to date.
    return waitForNodesCurrent(std::chrono::seconds(8));
}

Error RealClient::login(const SessionToken& sessionToken)
{
    auto notifier = makeSharedPromise<Error>();

    // So we can wait for the client's result.
    {
        std::lock_guard<std::mutex> guard(mClientLock);

        // Called when the user's been logged in.
        auto completion = [notifier](error result)
        {
            notifier->set_value(result);
        }; // result

        // Try and log in the user.
        mClient->login(sessionToken.get(), std::move(completion));

        // Let the client know it has work to do.
        mClient->waiter->notify();
    }

    // Wait for the client's result.
    auto result = waitFor(notifier->get_future());

    // Couldn't log the user in.
    if (result != API_OK)
        return result;

    // Try and retrieve a description of the user's cloud content.
    result = fetch(false);

    // Couldn't get a description of the cloud.
    if (result != API_OK)
        return result;

    // Convenience.
    using std::chrono::seconds;

    // Wait for our view of the cloud to be up to date.
    return waitForNodesCurrent(seconds(8));
}

sessiontype_t RealClient::loggedIn() const
{
    std::lock_guard<std::mutex> guard(mClientLock);

    return mClient->loggedin();
}

Error RealClient::logout(bool keepSession)
{
    // So we can receive a result from the client.
    auto notifier = makeSharedPromise<Error>();

    // Try and log the user out.
    {
        std::lock_guard<std::mutex> guard(mClientLock);

        // User isn't logged in.
        if (mClient->loggedin() == NOTLOGGEDIN)
            return API_OK;

        // User wants to keep the session intact.
        if (keepSession)
            return mClient->locallogout(false, true), API_OK;

        // Transmits result to notifier.
        auto completion = [notifier](error result)
        {
            notifier->set_value(result);
        }; // completion

        // Try and log the user out.
        mClient->logout(false, std::move(completion));
    }

    // Return client's result to caller.
    return waitFor(notifier->get_future());
}

Error RealClient::reload()
{
    return fetch(false);
}

NodeHandle RealClient::rootHandle() const
{
    std::lock_guard<std::mutex> guard(mClientLock);

    return mClient->mNodeManager.getRootNodeFiles();
}

auto RealClient::sessionToken() const -> ErrorOr<SessionToken>
{
    std::lock_guard<std::mutex> guard(mClientLock);

    std::string token;

    if (mClient->dumpsession(token))
        return SessionToken(token);

    return unexpected(API_EFAILED);
}

m_off_t RealClient::setDownloadSpeed(m_off_t speed)
{
    return setTransferSpeed(&MegaClient::getmaxdownloadspeed,
                            &MegaClient::setmaxdownloadspeed,
                            speed);
}

m_off_t RealClient::setUploadSpeed(m_off_t speed)
{
    return setTransferSpeed(&MegaClient::getmaxuploadspeed, &MegaClient::setmaxuploadspeed, speed);
}

Error RealClient::share(const std::string& email, CloudPath path, accesslevel_t permissions)
{
    // Sanity.
    assert(!email.empty());

    // Resolve directory path to a handle.
    auto handle = path.resolve(*this);

    // Directory doesn't exist.
    if (!handle)
        return handle.error();

    // Have we already shared this node with email?
    if (shared(email, *handle, permissions))
        return API_OK;

    // Couldn't prepare node for sharing.
    if (auto result = openShareDialog(*handle))
        return result;

    // Open share dialog if necessary.
    auto notifier = makeSharedPromise<Error>();

    auto shared = [notifier](Error result, bool)
    {
        notifier->set_value(result);
    }; // shared

    std::unique_lock<std::mutex> lock(mClientLock);

    auto node = mClient->nodeByHandle(*handle);

    // Node no longer exists.
    if (!node)
        return API_ENOENT;

    // Try and create share.
    mClient->setshare(std::move(node),
                      email.c_str(),
                      permissions,
                      false,
                      nullptr,
                      mClient->nextreqtag(),
                      std::move(shared));

    // Make sure the client's awake.
    mClient->waiter->notify();

    lock.unlock();

    // Return result to caller.
    return waitFor(notifier->get_future());
}

bool RealClient::shared(const std::string& email, CloudPath path, accesslevel_t permissions) const
{
    // Sanity.
    assert(!email.empty());

    // Resolve path to a node handle.
    auto handle = path.resolve(*this);

    // Can't share a node that doesn't exist.
    if (!handle)
        return false;

    // Have we shared node with the user?
    return shared(email, *handle, permissions);
}

void RealClient::useVersioning(bool useVersioning)
{
    // Convenience.
    auto& versionsDisabled = mClient->versions_disabled;

    // Versioning state hasn't changed.
    if (versionsDisabled == !useVersioning)
        return;

    // Versioning state has changed.
    versionsDisabled = !useVersioning;
}

Error RealClient::RealInvite::execute(ipcactions_t action)
{
    auto notifier = makeSharedPromise<Error>();

    auto executed = [notifier](error result, ipcactions_t)
    {
        notifier->set_value(result);
    }; // executed

    std::unique_lock<std::mutex> lock(mClient.mClientLock);

    mClient.mClient->updatepcr(mID, action, std::move(executed));

    mClient.mClient->waiter->notify();

    lock.unlock();

    return waitFor(notifier->get_future());
}

Error RealClient::RealInvite::execute(opcactions_t)
{
    auto notifier = makeSharedPromise<Error>();

    auto executed = [notifier](Handle, error result, opcactions_t)
    {
        notifier->set_value(result);
    }; // executed

    std::unique_lock<std::mutex> lock(mClient.mClientLock);

    mClient.mClient->setpcr(nullptr, OPCA_DELETE, nullptr, nullptr, mID, std::move(executed));

    mClient.mClient->waiter->notify();

    lock.unlock();

    return waitFor(notifier->get_future());
}

bool RealClient::RealContact::mustVerify(std::unique_lock<std::mutex>&) const
{
    return mClient.mClient->mKeyManager.getManualVerificationFlag();
}

RealClient::RealContact::RealContact(RealClient& client, const User& user):
    Contact(),
    mClient(client),
    mEmail(user.email),
    mID(user.userhandle)
{}

Error RealClient::RealContact::remove()
{
    auto notifier = makeSharedPromise<Error>();

    auto removed = [notifier](error result)
    {
        notifier->set_value(result);
    }; // removed

    std::unique_lock<std::mutex> lock(mClient.mClientLock);

    auto result = mClient.mClient->removecontact(mEmail.c_str(), HIDDEN, std::move(removed));

    if (result != API_OK)
        return result;

    lock.unlock();

    return waitFor(notifier->get_future());
}

bool RealClient::RealContact::verified() const
{
    std::unique_lock<std::mutex> guard(mClient.mClientLock);

    if (mustVerify(guard))
        return mClient.mClient->areCredentialsVerified(mID);

    return true;
}

Error RealClient::RealContact::verify()
{
    // So we can wait for the client's result if necessary.
    auto notifier = makeSharedPromise<Error>();

    // Check if we we need to verify the contact.
    {
        std::unique_lock<std::mutex> guard(mClient.mClientLock);

        // Convenience.
        auto& client = *mClient.mClient;

        // Do we need to verify the contact?
        if (!mustVerify(guard))
            return API_OK;

        // Has the contact already been verified?
        if (client.areCredentialsVerified(mID))
            return API_OK;

        // Called when the contact has been verified.
        auto verified = [notifier](Error result)
        {
            notifier->set_value(result);
        }; // verified

        // Try and verify the contact.
        auto result = client.verifyCredentials(mID, std::move(verified));

        // Client's returned an immediate failure.
        if (result != API_OK)
            return result;

        // Let the client know it has work to do.
        client.waiter->notify();
    }

    // Return the client's result to the caller.
    return waitFor(notifier->get_future());
}

RealClient::RealInvite::RealInvite(RealClient& client, Handle id):
    Invite(),
    mClient(client),
    mID(id)
{}

Error RealClient::RealInvite::accept()
{
    return execute(IPCA_ACCEPT);
}

Error RealClient::RealInvite::cancel()
{
    return execute(OPCA_DELETE);
}

Error RealClient::RealInvite::decline()
{
    return execute(IPCA_DENY);
}

} // testing
} // common
} // mega
